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Online since: July 2013
Authors: De Dong Guo
Results show that the aggregate type and material quality is the important factor to the PQI calibration value; the density of asphalt pavement detected by PQI and the thickness calculated have fine correlation with the detecting results of cores, those detecting results are dependable; The construction quality instant control of asphalt pavement could be achieved by detecting the loose laying density and thickness of asphalt mixtures.
The dielectric constant is influenced by nominal maximum particle size, aggregate category and texture of material etc.
Acknowledgements This work was financially supported by the National Natural Science Foundation (51208287) and Shandong Award Foundation for Outstanding Young Scientists (BS2012NJ009).
Journal of Wuhan University of Technology, 2007, 29(9): 22-23
Journal of China and Foreign Highway, 2009,29(5):78-83.
The dielectric constant is influenced by nominal maximum particle size, aggregate category and texture of material etc.
Acknowledgements This work was financially supported by the National Natural Science Foundation (51208287) and Shandong Award Foundation for Outstanding Young Scientists (BS2012NJ009).
Journal of Wuhan University of Technology, 2007, 29(9): 22-23
Journal of China and Foreign Highway, 2009,29(5):78-83.
Online since: May 2011
Authors: Sudjit Sanguanruang, Rachan Leotphayakkarat, Nitikarn Fangern, Nattamon Koonsaeng, Chamorn Chawengkijwanich
For the TiO2 thin films at 1 layer and 3 layers, the XRD peaks are too weak to be identified due to the very small amount of TiO2 material immobilized onto the borosilicate glass.
Acknowledgements This work was financially supported by the Financial support from Kasetsart University Research and Development Institute(KURDI) , Thailand Graduate Institute of Science and Technology(TGIST), National Science and Technology Development Agency(NSTDA) and Faculty of Science,Kasetsart University.
References [1] Luminita Andronic, Alexandru Enesca, Cristina Vladuta , and Anca Duta: Chemical Engineering Journal Vol. 152(2009), p. 64-71 [2] Jorge, M.V., Claudio, F.R., Pedro, B.
Material Char Vol.58(2007), p.233-242
Raddi de Araujo: Chemical Engineering Journal Vol.149(2009), p.215–220 [5] Y.J.Gui, H.G.
Acknowledgements This work was financially supported by the Financial support from Kasetsart University Research and Development Institute(KURDI) , Thailand Graduate Institute of Science and Technology(TGIST), National Science and Technology Development Agency(NSTDA) and Faculty of Science,Kasetsart University.
References [1] Luminita Andronic, Alexandru Enesca, Cristina Vladuta , and Anca Duta: Chemical Engineering Journal Vol. 152(2009), p. 64-71 [2] Jorge, M.V., Claudio, F.R., Pedro, B.
Material Char Vol.58(2007), p.233-242
Raddi de Araujo: Chemical Engineering Journal Vol.149(2009), p.215–220 [5] Y.J.Gui, H.G.
Online since: June 2015
Authors: Karibeeran Shanmuga Sundaram, R. Vijay, K. Gurusami
The burn-out schedules for the investment materials and casting procedures follow the manufacturer’s recommendations.
Guide to dental materials and devices specification n.5 for Dental casting gold alloy.
Casting alloys the materials and the clinical effects.
Anusavice, Charless F.DeFreest, Science of dental materials – Constitution of alloys. 10th ed.
Chu, Laser –shock processing effects on surface microstructure and Mechanical properties of low carbon steel, Materials Science and Engineering, A260, 260 –8,(1999)
Guide to dental materials and devices specification n.5 for Dental casting gold alloy.
Casting alloys the materials and the clinical effects.
Anusavice, Charless F.DeFreest, Science of dental materials – Constitution of alloys. 10th ed.
Chu, Laser –shock processing effects on surface microstructure and Mechanical properties of low carbon steel, Materials Science and Engineering, A260, 260 –8,(1999)
Online since: December 2014
Authors: Jian Xin Shou, Mu Qing Qiu, Gang Chao Zhu, Jia Wei Qian, Hua Zheng Xin
The carrier materials mainly include the Nafion membrane, Polyethylene film, resin, porous silicon[1].
Materials and methods Equipment and Materials.
Helman: Journal of Physical and Chemical Reference Data Vol. 17(1988), p.513 [2] J.X.
Wang: Materials Research Bulletin Vol. 47(2012), p.3369 [4] J.
Meng: Materials Research Bulletin Vol. 42(2007), p.1278 [7] J.G.
Materials and methods Equipment and Materials.
Helman: Journal of Physical and Chemical Reference Data Vol. 17(1988), p.513 [2] J.X.
Wang: Materials Research Bulletin Vol. 47(2012), p.3369 [4] J.
Meng: Materials Research Bulletin Vol. 42(2007), p.1278 [7] J.G.
Online since: November 2010
Authors: Yoshiharu Mutoh, Teerawat Loanapakul, Yuichi Otsuka
Fatigue and acoustic emission behavior of plasma sprayed HAp top coat
and HAp/Ti bond coat with HAp top coat on commercially pure titanium
Teerawat Laonapakul1, a, Yuichi Otsuka 2,b and Yoshiharu Mutoh3,c
1
Dept. of Materials Science, Nagaoka University of Technology, Nagaoka-shi, Niigata, 940-2188, Japan
2
Dept. of System Safety, Nagaoka University of Technology, Nagaoka-shi, Niigata, 940-2188, Japan
3
Dept. of System Safety, Nagaoka University of Technology, Nagaoka-shi, Niigata, 940-2188, Japan
a
teerawat@stn.nagaokaut.ac.jp, botsuka@vos.nagaokaut.ac.jp, cmutoh@mech.nagaokaut.ac.jp
Keywords: Hydroxyapatite, Plasma spray coating, Fatigue, Acoustic emission
Abstract.
Introduction The successful applications of metallic biomaterials, such as Titanium (Ti) and its alloys as dental implants and orthopedic materials for artificial bone under biomechanical load bearing condition are unquestionable.
Acoustic emission (AE) recognized to be one of nondestructive evaluation methods is a real time monitoring technique of defect formation, failures in structural materials and fracture processes in loaded brittle coatings.
Experimental Procedure A Cp-Ti grade 4 was used as the substrate material.
References [1] Limin S. et al., Materials Science and Engineering A, Vol.360 (2003), p.70-84 [2] Rakngarm A. and Mutoh Y., J. of the Mechanical Behavior of Biomedical Materials, Vol. 2 (2009), p. 444-453 [3] Sun F. et al., Journal of Materials Processing Technology, Vol. 209 (2009), p.1597-1606 [4] Rakngarm A. and Mutoh Y., Materials Science and Engineering: C, Vol 29 (2009), p. 275-283 [5] Dinda G.P. et al., Acta Biomaterialia, Vol. 5 (2009), P.1821-1830
Introduction The successful applications of metallic biomaterials, such as Titanium (Ti) and its alloys as dental implants and orthopedic materials for artificial bone under biomechanical load bearing condition are unquestionable.
Acoustic emission (AE) recognized to be one of nondestructive evaluation methods is a real time monitoring technique of defect formation, failures in structural materials and fracture processes in loaded brittle coatings.
Experimental Procedure A Cp-Ti grade 4 was used as the substrate material.
References [1] Limin S. et al., Materials Science and Engineering A, Vol.360 (2003), p.70-84 [2] Rakngarm A. and Mutoh Y., J. of the Mechanical Behavior of Biomedical Materials, Vol. 2 (2009), p. 444-453 [3] Sun F. et al., Journal of Materials Processing Technology, Vol. 209 (2009), p.1597-1606 [4] Rakngarm A. and Mutoh Y., Materials Science and Engineering: C, Vol 29 (2009), p. 275-283 [5] Dinda G.P. et al., Acta Biomaterialia, Vol. 5 (2009), P.1821-1830
Online since: February 2012
Authors: Shi Long Tian, Zhi Li Yang
Finite Element Analysis on Directional Solidification of Al-Ni-Co Alloys
Shilong Tian1, a, Zhili Yang 2,b
1 College of Metallurgy & Material Engineering, Chongqing University of Science and Technology, Chongqing 401331, China
2 College of Metallurgy & Material Engineering, Chongqing University of Science and Technology, Chongqing 401331, China
adrajon@sohu.com, b80002346@163.com
Keywords: Finite element method; columnar grain; transient temperature field; directional solidification; temperature gradient; solidification rate
Abstract.
Therefore, this technique, since it was first developed, has made a great progress and has been widely applied to develop semiconductor, magnetic, composite materials.
Facing this situation, ANSYS incorporates latent heat during phase transition into temperature-dependent enthalpy of the materials.
Chinese Journal of Materials Research, 2001, 15(6):703-706
Advanced materials fabricated by non-equilibrium solidification process[M].Beijing: Science Press, 2004, 142-145.
Therefore, this technique, since it was first developed, has made a great progress and has been widely applied to develop semiconductor, magnetic, composite materials.
Facing this situation, ANSYS incorporates latent heat during phase transition into temperature-dependent enthalpy of the materials.
Chinese Journal of Materials Research, 2001, 15(6):703-706
Advanced materials fabricated by non-equilibrium solidification process[M].Beijing: Science Press, 2004, 142-145.
Online since: May 2012
Authors: Cheng Feng Li, Xiao Fang Zhou, Chun Fang Tang
Hazardous Materials.
J Hazardous Materials, Vol. 55(1997), p. 295-304 [7] A.
J Hazardous Materials, Vol. 55(1997), p. 203-220 [9] K.
H Hazardous Materials, Vol. 77(2000), p. 227-240 [15] J.
J Hazardous Materials, Vol. 99(2003), p. 71-88
J Hazardous Materials, Vol. 55(1997), p. 295-304 [7] A.
J Hazardous Materials, Vol. 55(1997), p. 203-220 [9] K.
H Hazardous Materials, Vol. 77(2000), p. 227-240 [15] J.
J Hazardous Materials, Vol. 99(2003), p. 71-88
Online since: June 2015
Authors: Mohd Arif Anuar Mohd Salleh, Flora Somidin, Norainiza Saud
Experimental Procedures
Materials.
Materials Science & Engineering A 2011;528:3967-3972
Materials Science & Engineering A 2011;529:257-264
Journal of Electronic Materials 2008;37(6):860-866
Materials Science & Engineering A 2012;556:633-637
Materials Science & Engineering A 2011;528:3967-3972
Materials Science & Engineering A 2011;529:257-264
Journal of Electronic Materials 2008;37(6):860-866
Materials Science & Engineering A 2012;556:633-637
Online since: November 2012
Authors: Ting Guo Chen, Yuan Zhang
In consideration of the structure dynamic responses and the pile foundation pull-out resistance, three types of pile foundation were adopted, which are the hollow steel piles, the reinforced concrete pile and the hollow steel piles poured with granular materials.
In case 2 the jacket structure’s pile foundation is composed of reinforced concrete pile to increase the stiffness and mass and in case 3 the hollow steel pipes poured with granular materials are used as pile foundation to increase mass only.
The material of pipes and columns is Q345.
But in case 3, there are granular materials inside the pipe, the weight of the structure increase but the stiffness doesn’t change, so the structure become more flexible and the natural frequencies drop obviously.
Journal of Chongqing Jiaotong University (Natural Science), Vol. 27 (2008) No. 3, p.370 (In Chinese) [4, 5] X.C Wang: Finite Element Method (Tsinghua University Press, China 2003).
In case 2 the jacket structure’s pile foundation is composed of reinforced concrete pile to increase the stiffness and mass and in case 3 the hollow steel pipes poured with granular materials are used as pile foundation to increase mass only.
The material of pipes and columns is Q345.
But in case 3, there are granular materials inside the pipe, the weight of the structure increase but the stiffness doesn’t change, so the structure become more flexible and the natural frequencies drop obviously.
Journal of Chongqing Jiaotong University (Natural Science), Vol. 27 (2008) No. 3, p.370 (In Chinese) [4, 5] X.C Wang: Finite Element Method (Tsinghua University Press, China 2003).
Online since: July 2014
Authors: Bin He, Si Ying Li, Hong Zheng, Chang Zhi Ma, Xing Tang
In academia, the research on motivating knowledge talented persons gradually goes deeper from the material incentive level into the affective motivation level.
Acknowledgements This work is supported partly by Humanities & Social Science Project from Chinese Ministry of Education (No.10YJA630054), National Natural Science Fund (No.70671029) and Natural Science Found of Guangdong Province (No.9151009001000054).
[3] Weiyu Gan, Xixiong Xu, Juan Yi, In Chinese: Industrial Engineering Journal, 14(4), 2011, pp:82-86
[7] James,L.R., Demaree, R.G., Wolf,G, Journal of Applied Psychhology, 78(2), 1993, pp:306-309
[9] Baron,R.M.,& Kenny,D.A, Journal of Personality and Social Psychology, 51, 1986
Acknowledgements This work is supported partly by Humanities & Social Science Project from Chinese Ministry of Education (No.10YJA630054), National Natural Science Fund (No.70671029) and Natural Science Found of Guangdong Province (No.9151009001000054).
[3] Weiyu Gan, Xixiong Xu, Juan Yi, In Chinese: Industrial Engineering Journal, 14(4), 2011, pp:82-86
[7] James,L.R., Demaree, R.G., Wolf,G, Journal of Applied Psychhology, 78(2), 1993, pp:306-309
[9] Baron,R.M.,& Kenny,D.A, Journal of Personality and Social Psychology, 51, 1986